Graham and Hunter are circus performers. A cable lifts Graham into the air at a constant speed of 1.5 ft/s. When Graham’s arms a

Question

3 years ago

15

Graham and Hunter are circus performers. A cable lifts Graham into the air at a constant speed of 1.5 ft/s. When Graham’s arms a

re 18 ft above the ground, Hunter, who is standing directly underneath Graham, throws Graham a ball as the cable continues to lift him higher. Hunter throws the ball from a position 5 ft above the ground with an initial velocity of 24 ft/s. Which system of equations can be used to model this situation?

Mathematics

2 answers:

Marina86 [1] · Answer 1 · 2022-04-16T00:13:12+03:00

Marina86 [1]3 years ago

4 0

Answer:

The right answer for the question that is being asked and shown above is that: "D) h=18t+1.5t-16t^2; h=5+24t-16t^2." the system of equations can be used to model this situation is that D) h=18t+1.5t-16t^2

h=5+24t-16t^2

zhannawk [14.2K] · Answer 2 · 2022-04-15T22:47:34+03:00

The answer to the question above as to which system of equations can be used to model the situation of Graham and Hunter when a cable lifts Graham into the air at a speed of 1.5 ft/s and Hunter throws the ball from a position of 5 ft. above the ground with an initial velocity of 24 ft/s. the equation will be : H = 18t + 1.5t - 16t ^ 2
H = 5 + 24t - 16t ^ 2